Abstract
Life cycle assessment (LCA) is recognized as a useful analytical approach for quantifying environmental impacts of renewable energy technologies, including concentrating solar power (CSP). An LCA accounts for impacts from all stages in the development, operation, and decommissioning of a CSP plant, including such upstream stages as the extraction of raw materials used in system components,manufacturing of those components, and construction of the plant. The National Renewable Energy Laboratory is conducting a series of LCA studies for various CSP technologies. This paper contributes to a thorough LCA of a 100 MWnet molten salt power tower CSP plant by estimating the environmental impacts resulting from the manufacture of heliostats. Three life cycle metrics are evaluated:greenhouse gas emissions, water consumption, and cumulative energy demand. The heliostat under consideration (the 148 m2 Advanced Thermal Systems heliostat) emits 5,300 kg CO2eq, consumes 274 m3 of water, and requires 159,000 MJeq during its manufacture. Future work will incorporate the results from this study into the LCA model used to estimate the life cycle impacts of the entire 100 MWnetpower tower CSP plant.
Original language | American English |
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Number of pages | 9 |
State | Published - 2012 |
Event | SolarPACES 2012 - Marrakech, Morocco Duration: 11 Sep 2012 → 14 Sep 2012 |
Conference
Conference | SolarPACES 2012 |
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City | Marrakech, Morocco |
Period | 11/09/12 → 14/09/12 |
NREL Publication Number
- NREL/CP-6A20-56452
Keywords
- concentrating solar power (CSP)
- cumulative energy demand
- greenhouse gas emissions (GHG)
- heliostats
- life-cycle assessment
- power towers
- water consumption